TH5593B - Method for separating mercury and arsenic in hydrocarbons. - Google Patents

Abstract

A method for separating mercury and arsenic in hydrocarbon containing mercury and sulfur is characterized by The feedstock is exposed to hydrogen precipitation-assisted binders, by the presence of at least one metal from the group consisting of nickel, cobalt, iron, palladium, and platinum, at least metals. One from that group is made up of chromium, molybdenum, huangstain and uranium. And carrier substances that are reactive to one type After stacking the said substance Entered or mixed with a mercury detergent which Contains sulphites of at least one metal from the group made up of copper, iron and silver or sulfur. And a carrier with a type of reactivity along the feed line of the feed

Claims (7)

1. Method for separating mercury from hydrocarbon containing mercury and sulfur. It is characterized by that the hydrogen mixture and the feed additive will react in the presence of arsenic binding. A type with a reactant property known as a "reactant" consists of at least one M metal chosen from the group comprising. Nickel, cobald, iron, palladium, and platinum, one or more N metals, selected from a group made up of chromium, molybdenum, hangskain and uranium and may contain highly reactive conductors. At least one is one of the porous inorganic matrix, at least after the arsenic binding agent is fed or mixed with the mercury binder that Contains at least one metal P sulfide. It is selected from a group made up of copper, iron and silver or sulfur and a carrier that is reactive to one. According to the feed line 2. Method according to claim 1, where the feeder contains arsenic, including mercury and sulfur. It is characterized by that arsenic and mercury are separated at the same time respectively by Reaction with DRZenifidation with a reactant property known as "Reaction aid" and with demercurisation 3. Method of claim No. 1 and No. 2, where some of the said feeders have been hydrated. Rice, hydrodenitrification And hydrocodone According to the hydrocarbon that does not Saturation of such feeders At the same time as the removal of metals, mercury and arsenic, 4. Any method of claim 1 to 3 where one or more sulfur compounds may be added, selected from a group made up of hydrogen sulphide and organic compounds. 5. Any method of claim 1 to 4 in which the reagent contains at least one M metal from 0.01 to 15% by weight. And at least one type of N metal in quantities from 2 to 30% by weight and where the atomic ratio of M / N is 0.3: 1 to 0.7: 1 6. Clause 5 method where M metal Is cobalt and nickel, and N metals are molybdenum and tuscan. And where the reagent contains at least one metal M in the amount of 0.5 to 15% by weight and at least one of the metal N in the amount of 5 to 25% by weight. 7. Method of claim No. 5 and 6 any one where the reagent contains at least one noble metal Which was selected from palladium and platinum in the M metal category and where the reagent consisted of metals M from 0.01 to 5%. 8. One of the methods of claim 5 to 7 where the reagent was Contains a carrier containing one reactive carrier other than metals M and N. The carrier contains porous inorganic matrix, including at least one element in the group it makes up. With alumina, silica, silka-alumina, magnesia, zirconia, titanium oxide, clay, alumina, alumina and alumina. Synthetic or natural minosulfates, zeolites 9. Any method of claim 1 to 8 where mercury binder contains from 1 to 40% sulfur of the total weight. It and at least one carrier selected from the group, consisting of alumina, silica-alumina, silica, titanium oxide, zirconia, zeolite, reactive carbon. , Clay and Aluminum Cement 1 0. Method for claim 9, where mercury catches still contain at least p metal One of the quantities ranging from 0.1 to 20% by weight is selected from the group made up of copper, iron and silver, and where at least some of the P metal is sulfite. 1. One of the above-held claims, where: - operating pressure ranges from 1 to 50 bar completely - hydrogen flow rates from 1 to 1000 liters of hydrogen gas (NTP). ) Per liter liquid feeder - Hourly volumetric velocity in liquid feed volume terms ranges from 0.1 to 30 volumes per reaction aid volume. And ranged from 0.1 to 30 volumes per volume of the demercurisation. - The operating temperature of the reagent ranged from 180 to 450 C. - The kemercurisation operating temperature ranged from 0. Up to 400 C - reagent and chemorisation are separated in 2 reactors by which the feeder first comes into contact with the reagent and then the mercury binder 1. 2. Method according to claim 11, where - reaction aid And chemotherapy is in the same reactor And where the operating temperature is from 180 to 400C1 3. Methods of claim 11 or 12, where hydrogen-rich gas is separated from the fluent from that or those reactors. And at least some of it was returned to the top of Reactor 1. 4. Any method of claim 1 to 13 where the reagent is initially treated at temperatures from 50 to 500 C by a gaseous mixture consisting of at least one compound. From the group made up of hydrogen, hydrogen sulfite And organic sulfur compounds Before treatment with hydrocarbon 1 5. Any method of claim 1 to 14 where such feeders contain hydrocarbons, at least partially liquid at atmospheric temperature and pressure, and containing mercury from 10-3 to 2 mg per kg of feed ingredient and may contain between 10-2 and 10 mg of arsenic per kg of feeder 1. 6. Any one of claim 1 to 15 method where the treated feedstock is heavy hydrocarbon. Or Fluents from the Reactivity Reactivity Process and / or Thermal Conversion Process 1 7. Method for any one of Claims 1 to 15 In which the treated feed substance is a gas condensate